质体末端氧化酶作为提高植物胁迫耐受性的途径：已知与未知

Plastid Terminal Oxidase as a Route to Improving Plant Stress Tolerance: Known Knowns and Known Unknowns.

作者信息

Johnson Giles N, Stepien Piotr

机构信息

Faculty of Life Sciences, University of Manchester, Michael Smith Building, Oxford Road, Manchester M13 9PT, UK

Department of Plant Nutrition, Wroclaw University of Environmental and Life Sciences, ul. Grunwaldzka 53, 50-357 Wroclaw, Poland.

出版信息

Plant Cell Physiol. 2016 Jul;57(7):1387-1396. doi: 10.1093/pcp/pcw042. Epub 2016 Mar 2.

DOI:10.1093/pcp/pcw042

PMID:26936791

Abstract

A plastid-localized terminal oxidase, PTox, was first described due to its role in chloroplast development, with plants lacking PTox producing white sectors on their leaves. This phenotype is explained as being due to PTox playing a role in carotenoid biosynthesis, as a cofactor of phytoene desaturase. Co-occurrence of PTox with a chloroplast-localized NADPH dehydrogenase (NDH) has suggested the possibility of a functional respiratory pathway in plastids. Evidence has also been found that, in certain stress-tolerant plant species, PTox can act as an electron acceptor from PSII, making it a candidate for engineering stress-tolerant crops. However, attempts to induce such a pathway via overexpression of the PTox protein have failed to date. Here we review the current understanding of PTox function in higher plants and discuss possible barriers to inducing PTox activity to improve stress tolerance.

摘要

一种定位于质体的末端氧化酶PTox，最初因其在叶绿体发育中的作用而被描述，缺乏PTox的植物叶片上会出现白色斑块。这种表型被解释为PTox作为八氢番茄红素去饱和酶的辅助因子，在类胡萝卜素生物合成中发挥作用。PTox与定位于叶绿体的NADPH脱氢酶（NDH）同时存在，这表明质体中可能存在一条功能性呼吸途径。也有证据表明，在某些耐逆植物物种中，PTox可以作为PSII的电子受体，这使其成为培育耐逆作物的一个候选对象。然而，迄今为止，通过过表达PTox蛋白来诱导这样一条途径的尝试均告失败。在此，我们综述了目前对高等植物中PTox功能的认识，并讨论了诱导PTox活性以提高耐逆性可能存在的障碍。

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质体末端氧化酶作为提高植物胁迫耐受性的途径：已知与未知

Plastid Terminal Oxidase as a Route to Improving Plant Stress Tolerance: Known Knowns and Known Unknowns.

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